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Progressive developments, challenges and future trends in laser shock peening of metallic materials and alloys: A comprehensive review
Grain refinement and arrangement is an effective strategy to enhance tensile and fatigue
properties of key metallic components. Laser shock peening (LSP) is one of surface severe …
properties of key metallic components. Laser shock peening (LSP) is one of surface severe …
Recent developments and novel applications of laser shock peening: a review
By inducing work hardening and beneficial compressive residual stresses in near‐surface
regions, laser shock peening (LSP) improves the fatigue performance of many metallic …
regions, laser shock peening (LSP) improves the fatigue performance of many metallic …
[HTML][HTML] Processing parameters in laser powder bed fusion metal additive manufacturing
As metallic additive manufacturing grew in sophistication, users have requested greater
control over the systems, namely the ability to fully change the process parameters. The goal …
control over the systems, namely the ability to fully change the process parameters. The goal …
Tailoring properties of directed energy deposited Al-Mg alloy by balancing laser shock peening and heat treatment
W Dai, W Guo, J **ao, Y Zhu, Z Qi, J Shi, C Yin… - Journal of Materials …, 2024 - Elsevier
Wire arc-directed energy deposition (WADED) has shown great advantages and potential in
fabricating large-scale aluminum (Al) alloy components. However, WADED Al alloys …
fabricating large-scale aluminum (Al) alloy components. However, WADED Al alloys …
Microstructural response and grain refinement mechanism of commercially pure titanium subjected to multiple laser shock peening impacts
JZ Lu, LJ Wu, GF Sun, KY Luo, YK Zhang, J Cai… - Acta Materialia, 2017 - Elsevier
The microstructural response and grain subdivision process in commercially pure (CP)
titanium subjected to multiple laser shock peening (LSP) impacts were investigated by …
titanium subjected to multiple laser shock peening (LSP) impacts were investigated by …
Laser shock processing of titanium alloys: A critical review on the microstructure evolution and enhanced engineering performance
Titanium (Ti) and its alloys are frequently utilized as critical components in a variety of
engineering applications because of their high specific strength and excellent corrosion …
engineering applications because of their high specific strength and excellent corrosion …
Toward tunable mechanical behavior and enhanced elastocaloric effect in NiTi alloy by gradient structure
Tailoring properties of engineering materials to meet various application requirements is a
long-standing challenge in materials science. Here, we demonstrate an unprecedented …
long-standing challenge in materials science. Here, we demonstrate an unprecedented …
Improved elastocaloric cooling performance in gradient-structured NiTi alloy processed by localized laser surface annealing
The coefficient of performance of material (COP mat, the ratio of caloric effect to energy
dissipation), a key figure-of-merit for solid-state refrigerants, is significantly degenerated by …
dissipation), a key figure-of-merit for solid-state refrigerants, is significantly degenerated by …
Grain refinement mechanism of nickel-based superalloy by severe plastic deformation-mechanical machining case
This paper studied the formation mechanism of white layer of a next generation nickel-based
superalloy formed under severe plastic deformation induced by a mechanical material …
superalloy formed under severe plastic deformation induced by a mechanical material …
Influence of processing parameters on the fabrication of a Cu-Al-Ni-Mn shape-memory alloy by selective laser melting
The Cu-based shape-memory alloy 81.95 Cu-11.85 Al-3.2 Ni-3Mn (wt.%) was processed by
selective laser melting (SLM) and the parameters were optimised to obtain compact, fully …
selective laser melting (SLM) and the parameters were optimised to obtain compact, fully …